Bachelor of Mechanical Engineering/MSc in Data Science in Newark United States | University of Delaware

The interdisciplinary Master of Science in Data Science (MSDS) provides combined 4+1 Bachelor's and MSDS programs enabling students to earn both a Bachelor's degree from various departments and the MSDS within five years of full-time study. Undergraduate degree choices span the Departments of Mathematical Sciences and Physics and Astronomy in the College of Arts and Sciences, along with the Departments of Computer and Information Sciences, Electrical and Computer Engineering, and Mechanical Engineering in the College of Engineering. All requirements for both degree programs must be fulfilled. A maximum of six credits of graduate coursework from the undergraduate major's department can count toward both degrees.

Mechanical engineering stands as one of the most versatile engineering disciplines, focusing on the design and analysis of machines, structures, and materials using physics and materials science principles. Mechanical engineers tackle diverse projects, from creating cars, airplanes, and robots to advancing renewable energy systems, medical devices, and enhanced composite materials.
Air and fluid dynamics: Mechanical engineers utilize gas and fluid physics to develop equipment such as air conditioners, heating systems, respirators, engine cooling systems, aircraft, and spacecraft.

Biomechanics: The human body functions as a mechanical system with fluid flow, structural, and dynamic elements. Mechanical engineers lead in biomechanics, covering medical device design and the analysis and improvement of human movement.

Composite materials: Composite structures are now standard in wind-turbine blades, high-performance sports equipment, and aerospace vehicles, with mechanical engineers driving the innovation of new applications for these advanced materials.

Design: Engineering design heavily relies on science but focuses on inventing new devices or processes that enhance quality of life—transforming concepts into reality.

The environment: Mechanical engineering principles help model the transport and transformation of pollutants in oceans and atmospheres, as well as particle dynamics.

Manufacturing: Contemporary manufacturing uses machinery, including 3D printers for additive manufacturing, which mechanical engineers design and construct.

Robots: Autonomous machines are employed in industrial production, space exploration, robotic surgery, bomb disposal, and even home cleaning. Self-driving vehicles also represent robotic systems.

Smart materials and controls: Mechanical engineers leverage innovative engineering materials to create advanced sensors and actuators, such as artificial muscles, shape memory alloys, self-healing materials, and thermoelectric and piezoelectric components.